Scientific Reports (May 2018)

Long-lived monolithic micro-optics for multispectral GRIN applications

  • Antoine Lepicard,
  • Flavie Bondu,
  • Myungkoo Kang,
  • Laura Sisken,
  • Anupama Yadav,
  • Frederic Adamietz,
  • Vincent Rodriguez,
  • Kathleen Richardson,
  • Marc Dussauze

DOI
https://doi.org/10.1038/s41598-018-25481-x
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 8

Abstract

Read online

Abstract The potential for realizing robust, monolithic, near-surface refractive micro-optic elements with long-lived stability is demonstrated in visible and infrared transmitting glasses capable of use in dual band applications. Employing an enhanced understanding of glass chemistry and geometric control of mobile ion migration made possible with electrode patterning, flat, permanent, thermally-poled micro-optic structures have been produced and characterized. Sub-surface (t~5–10 µm) compositional and structural modification during the poling process results in formation of spatially-varying refractive index profiles, exhibiting induced Δn changes up to 5 × 10−2 which remain stable for >15 months. The universality of this approach applied to monolithic vis-near infrared [NIR] oxide and NIR-midwave infrared [MIR] chalcogenide glass materials is demonstrated for the first time. Element size, shape and gradient profile variation possible through pattern design and fabrication is shown to enable a variety of design options not possible using other GRIN process methodologies.